openzipkin/zipkin
Composer 安装命令:
composer require openzipkin/zipkin
包简介
A Zipkin instrumentation for PHP
README 文档
README
Zipkin PHP is the official PHP Tracer implementation for Zipkin, supported by the OpenZipkin community.
Installation
composer require openzipkin/zipkin
Setup
use Zipkin\Annotation; use Zipkin\Endpoint; use Zipkin\Samplers\BinarySampler; use Zipkin\TracingBuilder; use Zipkin\Reporters\Http; // First we create the endpoint that describes our service $endpoint = Endpoint::create('my_service'); $reporter = new Http(['endpoint_url' => 'http://myzipkin:9411/api/v2/spans']); $sampler = BinarySampler::createAsAlwaysSample(); $tracing = TracingBuilder::create() ->havingLocalEndpoint($endpoint) ->havingSampler($sampler) ->havingReporter($reporter) ->build(); $tracer = $tracing->getTracer(); ... $tracer->flush();
Obs. for a more complete frontend/backend example, check this repository.
Tracing
The tracer creates and joins spans that model the latency of potentially distributed work. It can employ sampling to reduce overhead in process or to reduce the amount of data sent to Zipkin.
Spans returned by a tracer report data to Zipkin when finished, or do nothing if unsampled. After starting a span, you can annotate events of interest or add tags containing details or lookup keys.
Spans have a context which includes trace identifiers that place it at the correct spot in the tree representing the distributed operation.
Local Tracing
When tracing local code, just run it inside a span
$span = $tracer->newTrace(); $span->setName('encode'); $span->start(); try { doSomethingExpensive(); } finally { $span->finish(); }
In the above example, the span is the root of the trace. In many cases,
you will be a part of an existing trace. When this is the case, call
newChild instead of newTrace
$span = $tracer->newChild($root->getContext()); $span->setName('encode'); $span->start(); try { doSomethingExpensive(); } finally { $span->finish(); }
Customizing spans
Once you have a span, you can add tags to it, which can be used as lookup keys or details. For example, you might add a tag with your runtime version.
$span->tag('http.status_code', '200');
RPC tracing
RPC tracing is often done automatically by interceptors. Under the scenes, they add tags and events that relate to their role in an RPC operation.
Here's an example of a client span:
// before you send a request, add metadata that describes the operation $span = $tracer->newTrace(); $span->setName('get'); $span->setKind(Kind\CLIENT); $span->tag('http.status_code', '200'); $span->tag(Tags\HTTP_PATH, '/api'); $span->setRemoteEndpoint(Endpoint::create('backend', 127 << 24 | 1, null, 8080)); // when the request is scheduled, start the span $span->start(); // if you have callbacks for when data is on the wire, note those events $span->annotate(Annotation\WIRE_SEND); $span->annotate(Annotation\WIRE_RECV); // when the response is complete, finish the span $span->finish();
Sampling
Sampling may be employed to reduce the data collected and reported out of process. When a span isn't sampled, it adds no overhead (noop).
Sampling is an up-front decision, meaning that the decision to report data is made at the first operation in a trace, and that decision is propagated downstream.
By default, there's a global sampler that applies a single rate to all
traced operations. Sampler is how you indicate this,
and it defaults to trace every request.
Custom sampling
You may want to apply different policies depending on what the operation is. For example, you might not want to trace requests to static resources such as images, or you might want to trace all requests to a new api.
Most users will use a framework interceptor which automates this sort of policy. Here's how they might work internally.
private function newTrace(Request $request) { $flags = SamplingFlags::createAsEmpty(); if (strpos($request->getUri(), '/experimental') === 0) { $flags = DefaultSamplingFlags::createAsSampled(); } else if (strpos($request->getUri(), '/static') === 0) { $flags = DefaultSamplingFlags::createAsSampled(); } return $tracer->newTrace($flags); }
Propagation
Propagation is needed to ensure activity originating from the same root are collected together in the same trace. The most common propagation approach is to copy a trace context from a client sending an RPC request to a server receiving it.
For example, when an downstream Http call is made, its trace context is sent along with it, encoded as request headers:
Client Span Server Span
┌──────────────────┐ ┌──────────────────┐
│ │ │ │
│ TraceContext │ Http Request Headers │ TraceContext │
│ ┌──────────────┐ │ ┌───────────────────┐ │ ┌──────────────┐ │
│ │ TraceId │ │ │ X-B3-TraceId │ │ │ TraceId │ │
│ │ │ │ │ │ │ │ │ │
│ │ ParentSpanId │ │ Extract │ X-B3-ParentSpanId │ Inject │ │ ParentSpanId │ │
│ │ ├─┼─────────>│ ├────────┼>│ │ │
│ │ SpanId │ │ │ X-B3-SpanId │ │ │ SpanId │ │
│ │ │ │ │ │ │ │ │ │
│ │ Sampled │ │ │ X-B3-Sampled │ │ │ Sampled │ │
│ └──────────────┘ │ └───────────────────┘ │ └──────────────┘ │
│ │ │ │
└──────────────────┘ └──────────────────┘
The names above are from B3 Propagation, which is built-in to Brave and has implementations in many languages and frameworks.
Most users will use a framework interceptor which automates propagation. Here's how they might work internally.
Here's what client-side propagation might look like
// configure a function that injects a trace context into a request $injector = $tracing->getPropagation()->getInjector(new RequestHeaders); // before a request is sent, add the current span's context to it $injector($span->getContext(), $request);
Here's what server-side propagation might look like
// configure a function that extracts the trace context from a request $extractor = $tracing->getPropagation()->getExtractor(new RequestHeaders); $extracted = $extractor($request); $span = $tracer->newChild($extracted); $span->setKind(Kind\SERVER);
If you aren't using a framework or don't have access to the Request object, you can extract the context from the $_SERVER variable
$extractor = $tracing->getPropagation()->getExtractor(new ServerHeaders); $extracted = $extractor($_SERVER);
Extracting a propagated context
The Extractor reads trace identifiers and sampling status
from an incoming request or message. The carrier is usually a request object
or headers.
SamplingFlags|TraceContext is usually only used with $tracer->newChild(extracted), unless you are
sharing span IDs between a client and a server.
Implementing Propagation
Extractor will output a SamplingFlags|TraceContext with one of the following:
TraceContextif trace and span IDs were present.SamplingFlagsif no identifiers were present
Current Span
Zipkin supports a "current span" concept which represents the in-flight
operation. Tracer::currentSpan() can be used to add custom tags to a
span and Tracer::nextSpan() can be used to create a child of whatever
is in-flight.
A common use case for the current span is to instrument RPC clients. For example:
/** * This http clients composes an http client using PSR7 */ class TraceClient implements ClientInterface { public function request($method, $uri = '', array $options = []) { /* Gets the child Span of the current one */ $span = $this->tracer->nextSpan(); $span->setKind(Zipkin\Kind\CLIENT); $span->tag(Tags\HTTP_PATH, $uri); try { $response = $this->client->request($method, $uri, $options); $span->tag(Tags\HTTP_STATUS_CODE, (string) $response->getStatusCode()); return $response; catch (Throwable $e) { $span->setError($e); throw $e; } finally { $span->finish(); } } }
Setting a span in scope manually
When writing new instrumentation, it is important to place a span you created in scope as the current span.
In edge cases, you may need to clear the current span temporarily. For
example, launching a task that should not be associated with the current
request. To do this, simply pass null to openScope.
Instrumentation
Tests
Tests can be run by
composer test
Whereas static checks can be run by:
composer static-check
Reference
openzipkin/zipkin 适用场景与选型建议
openzipkin/zipkin 是一款 基于 PHP 开发的 Composer 扩展包,目前已累计 4.54M 次下载、GitHub Stars 达 277, 最近一次更新时间为 2018 年 07 月 23 日, 在 PHP 生态内属于活跃度较高的组件。
它主要适用于以下技术方向: 「zipkin」 「tracing」 「openzipkin」 「distributed-tracing」 等业务场景。在实际项目中,围绕这些方向常见需要落地的问题包括:接口对接、性能调优、并发安全、与既有框架(Laravel / ThinkPHP / Yii / Webman 等)的兼容适配,以及生产环境的日志埋点与稳定性保障。
我们在过去多个企业项目中使用过 openzipkin/zipkin 或与其功能相近的方案,如果你在选型或落地过程中遇到问题,例如 版本兼容、二次改造、私有化封装、与内部系统对接、生产 BUG 排查,欢迎联系我们协助评估。
基于 openzipkin/zipkin 在你已有业务上做功能扩展、字段裁剪、UI 适配、与内部账号 / 权限 / 日志系统的深度对接。
线上偶发问题、内存泄漏、慢查询、并发异常等排查修复;针对高流量场景做缓存、队列、索引层面的调优。
承接完整的项目从需求 → 设计 → 开发 → 上线 → 长期运维;也可按月提供技术保姆服务。
与 openzipkin/zipkin 相关的其它包
同方向 / 同关键字的高下载量 PHP Composer 包推荐,方便对比选型:
A Zipkin instrumentation for PHP
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Observability component.
A simple zipkin implementation for php.
Symfony Opentracing bundle extension for Zipkin tracers
统计信息
- 总下载量: 4.54M
- 月度下载量: 0
- 日度下载量: 0
- 收藏数: 278
- 点击次数: 31
- 依赖项目数: 44
- 推荐数: 1
其他信息
- 授权协议: Apache-2.0
- 更新时间: 2018-07-23